Moho depths beneath the European Alps: a homogeneously processed map and receiver functions database

Konstantinos Michailos; György Hetényi; Matteo Scarponi; Josip Stipčević; Irene Bianchi; Luciana Bonatto; Wojciech Czuba; Massimo Di Bona; Aladino Govoni; Katrin Hannemann; Tomasz Janik; Dániel Kalmár; Rainer Kind; Frederik Link; Francesco Pio Lucente; Stephen Monna; Caterina Montuori; Stefan Mroczek; Anne Paul; Claudia Piromallo; Jaroslava Plomerová; Julia Rewers; Simone Salimbeni; Frederik Tilmann; Piotr Å roda; Jérôme Vergne

doi:10.5194/essd-15-2117-2023

Moho depths beneath the European Alps: a homogeneously processed map and receiver functions database

Konstantinos Michailos^*, György Hetényi, Matteo Scarponi, Josip Stipčević, Irene Bianchi, Luciana Bonatto, Wojciech Czuba, Massimo Di Bona, Aladino Govoni, Katrin Hannemann, Tomasz Janik, Dániel Kalmár, Rainer Kind, Frederik Link, Francesco Pio Lucente, Stephen Monna, Caterina Montuori, Stefan Mroczek, Anne Paul, Claudia PiromalloJaroslava Plomerová, Julia Rewers, Simone Salimbeni, Frederik Tilmann, Piotr Å roda, Jérôme Vergne

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

We use seismic waveform data from the AlpArray Seismic Network and three other temporary seismic networks, to perform receiver function (RF) calculations and time-to-depth migration to update the knowledge of the Moho discontinuity beneath the broader European Alps. In particular, we set up a homogeneous processing scheme to compute RFs using the time-domain iterative deconvolution method and apply consistent quality control to yield 112205 high-quality RFs. We then perform time-to-depth migration in a newly implemented 3D spherical coordinate system using a European-scale reference P and S wave velocity model. This approach, together with the dense data coverage, provide us with a 3D migrated volume, from which we present migrated profiles that reflect the first-order crustal thickness structure. We create a detailed Moho map by manually picking the discontinuity in a set of orthogonal profiles covering the entire area. We make the RF dataset, the software for the entire processing workflow, as well as the Moho map, openly available; these open-access datasets and results will allow other researchers to build on the current study.

Original language	English
Pages (from-to)	2117-2138
Number of pages	22
Journal	Earth System Science Data
Volume	15
Issue number	5
DOIs	https://doi.org/10.5194/essd-15-2117-2023
Publication status	Published - 24 May 2023
Externally published	Yes

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Michailos, K., Hetényi, G., Scarponi, M., Stipčević, J., Bianchi, I., Bonatto, L., Czuba, W., Di Bona, M., Govoni, A., Hannemann, K., Janik, T., Kalmár, D., Kind, R., Link, F., Lucente, F. P., Monna, S., Montuori, C., Mroczek, S., Paul, A., ... Vergne, J. (2023). Moho depths beneath the European Alps: a homogeneously processed map and receiver functions database. Earth System Science Data, 15(5), 2117-2138. https://doi.org/10.5194/essd-15-2117-2023

@article{bdd19572339049cf87eed0fafa45740c,

title = "Moho depths beneath the European Alps: a homogeneously processed map and receiver functions database",

abstract = "We use seismic waveform data from the AlpArray Seismic Network and three other temporary seismic networks, to perform receiver function (RF) calculations and time-to-depth migration to update the knowledge of the Moho discontinuity beneath the broader European Alps. In particular, we set up a homogeneous processing scheme to compute RFs using the time-domain iterative deconvolution method and apply consistent quality control to yield 112205 high-quality RFs. We then perform time-to-depth migration in a newly implemented 3D spherical coordinate system using a European-scale reference P and S wave velocity model. This approach, together with the dense data coverage, provide us with a 3D migrated volume, from which we present migrated profiles that reflect the first-order crustal thickness structure. We create a detailed Moho map by manually picking the discontinuity in a set of orthogonal profiles covering the entire area. We make the RF dataset, the software for the entire processing workflow, as well as the Moho map, openly available; these open-access datasets and results will allow other researchers to build on the current study.",

author = "Konstantinos Michailos and Gy{\"o}rgy Het{\'e}nyi and Matteo Scarponi and Josip Stip{\v c}evi{\'c} and Irene Bianchi and Luciana Bonatto and Wojciech Czuba and {Di Bona}, Massimo and Aladino Govoni and Katrin Hannemann and Tomasz Janik and D{\'a}niel Kalm{\'a}r and Rainer Kind and Frederik Link and Lucente, {Francesco Pio} and Stephen Monna and Caterina Montuori and Stefan Mroczek and Anne Paul and Claudia Piromallo and Jaroslava Plomerov{\'a} and Julia Rewers and Simone Salimbeni and Frederik Tilmann and {{\AA} roda}, Piotr and J{\'e}r{\^o}me Vergne",

note = "Publisher Copyright: {\textcopyright} 2023 Konstantinos Michailos et al.",

year = "2023",

month = may,

day = "24",

doi = "10.5194/essd-15-2117-2023",

language = "English",

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Michailos, K, Hetényi, G, Scarponi, M, Stipčević, J, Bianchi, I, Bonatto, L, Czuba, W, Di Bona, M, Govoni, A, Hannemann, K, Janik, T, Kalmár, D, Kind, R, Link, F, Lucente, FP, Monna, S, Montuori, C, Mroczek, S, Paul, A, Piromallo, C, Plomerová, J, Rewers, J, Salimbeni, S, Tilmann, F, Å roda, P & Vergne, J 2023, 'Moho depths beneath the European Alps: a homogeneously processed map and receiver functions database', Earth System Science Data, vol. 15, no. 5, pp. 2117-2138. https://doi.org/10.5194/essd-15-2117-2023

TY - JOUR

T1 - Moho depths beneath the European Alps

T2 - a homogeneously processed map and receiver functions database

AU - Michailos, Konstantinos

AU - Hetényi, György

AU - Scarponi, Matteo

AU - Stipčević, Josip

AU - Bianchi, Irene

AU - Bonatto, Luciana

AU - Czuba, Wojciech

AU - Di Bona, Massimo

AU - Govoni, Aladino

AU - Hannemann, Katrin

AU - Janik, Tomasz

AU - Kalmár, Dániel

AU - Kind, Rainer

AU - Link, Frederik

AU - Lucente, Francesco Pio

AU - Monna, Stephen

AU - Montuori, Caterina

AU - Mroczek, Stefan

AU - Paul, Anne

AU - Piromallo, Claudia

AU - Plomerová, Jaroslava

AU - Rewers, Julia

AU - Salimbeni, Simone

AU - Tilmann, Frederik

AU - Å roda, Piotr

AU - Vergne, Jérôme

PY - 2023/5/24

Y1 - 2023/5/24

N2 - We use seismic waveform data from the AlpArray Seismic Network and three other temporary seismic networks, to perform receiver function (RF) calculations and time-to-depth migration to update the knowledge of the Moho discontinuity beneath the broader European Alps. In particular, we set up a homogeneous processing scheme to compute RFs using the time-domain iterative deconvolution method and apply consistent quality control to yield 112205 high-quality RFs. We then perform time-to-depth migration in a newly implemented 3D spherical coordinate system using a European-scale reference P and S wave velocity model. This approach, together with the dense data coverage, provide us with a 3D migrated volume, from which we present migrated profiles that reflect the first-order crustal thickness structure. We create a detailed Moho map by manually picking the discontinuity in a set of orthogonal profiles covering the entire area. We make the RF dataset, the software for the entire processing workflow, as well as the Moho map, openly available; these open-access datasets and results will allow other researchers to build on the current study.

AB - We use seismic waveform data from the AlpArray Seismic Network and three other temporary seismic networks, to perform receiver function (RF) calculations and time-to-depth migration to update the knowledge of the Moho discontinuity beneath the broader European Alps. In particular, we set up a homogeneous processing scheme to compute RFs using the time-domain iterative deconvolution method and apply consistent quality control to yield 112205 high-quality RFs. We then perform time-to-depth migration in a newly implemented 3D spherical coordinate system using a European-scale reference P and S wave velocity model. This approach, together with the dense data coverage, provide us with a 3D migrated volume, from which we present migrated profiles that reflect the first-order crustal thickness structure. We create a detailed Moho map by manually picking the discontinuity in a set of orthogonal profiles covering the entire area. We make the RF dataset, the software for the entire processing workflow, as well as the Moho map, openly available; these open-access datasets and results will allow other researchers to build on the current study.

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U2 - 10.5194/essd-15-2117-2023

DO - 10.5194/essd-15-2117-2023

M3 - Article

AN - SCOPUS:85160923879

SN - 1866-3508

VL - 15

SP - 2117

EP - 2138

JO - Earth System Science Data

JF - Earth System Science Data

IS - 5

ER -

Moho depths beneath the European Alps: a homogeneously processed map and receiver functions database

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